[1] [1] ZHOU Lian,YANG Yang. Research on vehicle-mounted interference active protection technology based on battlefield threat analysis［J］. Electronic Information Warfare Technology, 2017, 32(1): 42-49.

[2] [2] ZHOU Ping, ZHAO Chenxiao, MEI Lin, et al. Analysis on the development status and trend of modern active tank protection system［J］. Command Control & Simulation, 2016, 38(2): 132-136.

[3] [3] ZHANG Yingyuan. Warning and spoofing techniques in laser countermeasures［D］. Xi′an: Xi′an University of Electronic Science and Technology, 2013.

[4] [4] MA Shiwei. Study on laser tracking and spoofing demonstration system［D］. Harbin: Harbin Institute of Technology, 2014.

[5] [5] ZHANG Xiaobao, TONG Lipeng. Research on laser guided weapon spoofing technology［J］. Aerospace Electronic Warfare, 2013, 29(2): 7-8.

[6] [6] BAI Feng, WEI Wenjian, MAN Guangzhi, et al. Current status and development of active laser spoofing technology ［J］. Defence-related Science and Technology, 2009, 30(6): 5-8.

[7] [7] LI Haiyan. Analysis of countermeasures against active jamming of laser guided weapons［J］.Laser Magazine, 2010, 31(6): 57-58.

[8] [8] SUN Xiaolin. High precision localization algorithm based on four-quadrant detector［D］. Dalian: Dalian Maritime University, 2012.

[9] [9] JURBA M, POPESCU E, COJOCARU S, et al. Extended spectral range laser receiver［J］. Optoelectronics and Advanced Materials-Rapid Communications,2012(6): 11-12.

[10] [10] LI Yunxia, MENG Wen, MA Lihua. Principle and application of photoelectric countermeasure［M］. Xi′an: Xi′an University of Electronic Science and Technology Press, 2009: 135-146.

[11] [11] MANASSON V A, SADOVENIK L S. Laser warning receiver based on coherence discrimination［C］. USA: IEEE, 1996: 869-873.

[12] [12] ZHANG Jilong, WANG Zhibin. A review of laser warning receiver based on spectral discrimination and coherent detection［J］. Journal of Test and Measurement Technology, 2006, 20: 95-101.

[13] [13] SONG Haiping, ZHANG Ke, LIU Yong, et al. Comprehensive response time analysis of active protection system of armored vehicle［J］. Electronic Information Warfare Technology, 2014, 29(2): 36-38.

[14] [14] WANG Qiugui,WANG Dawei,CUI Yu, et al. Research on application of photoelectric technology in vehicle active protection system［J］. Scientific and Technological Exploration in Scientific Stories Expo, 2013(12): 7-11.

[15] [15] LI Shichuan, ZHANG Tonglai, LI Lihua, et al. Study on infrared decoy spoofing technology of ground maneuvering target［J］. Infrared Technology, 2013,35(11): 727-731.